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It has been hypothesized that selections for aptamers with high affinity for a given target molecule will of necessity identify aptamers that have high specificity for that target. We have attempted to assess this hypothesis by selecting aptamers that can bind to MS2 coat protein or to single- or double-substitution variants of the coat protein. Some aptamers selected to bind MS2 coat protein or its variants were mildly specific for their cognate targets, discriminating by two- to fourfold against closely related proteins. Specificity determinants on both the coat proteins and the aptamers could be identified. However, many aptamers could readily bind to each of the different coat proteins. The identification of such aptamer 'generalists belies the proposed relationship between the affinities and specificities of selected RNA ligands. These results imply that, while aptamers may not finely discriminate between closely related targets, neither will their binding be negated by mutations in targets. Aptamer pharmaceuticals may therefore better resist the evolution of resistance. 相似文献
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Review: Aptamers in microfluidic chips 总被引:1,自引:0,他引:1
This review, covering reports published from 2002 to August 2010, shows how aptamers have made significant contributions in the improvements of microfluidic chips for affinity extraction, separations and detections. Furthermore, microfluidic chip methods for studying aptamer-target interactions and performing aptamer selections have also been summarized. Accordingly, research vacancies and future development trends in these areas are discussed. 相似文献
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核酸适体(Aptamer)是通过体外筛选得到的短单链DNA或RNA寡核苷酸, 具有与抗体相当或更优异的特异性及亲和力, 且具有靶标范围广、 易制备和灵活可控修饰、 免疫原性低、 批次差异性小以及易于运输保存等优势, 为食品、 环境和生物医学等领域提供了全新的分子识别工具, 获得了研究者的广泛关注. 但是目前其商业应用的数量仍有限. 为了增强核酸适体的应用性能, 研究者对核酸适体进行了大量的改性研究. 本文系统总结了核酸适体筛选前、 后采用非共价或共价方式对其进行化学修饰, 以增加核酸适体与靶标的结合亲和力的相关研究进展, 并对未来发展前景进行了展望. 相似文献
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An improved ssDNA library immobilized systematic evolution of ligands by enrichment(SELEX) was applied to select aptamers against carbaryl.After nine selection rounds,a highly enriched ssDNA pool was obtained.The Apta3 was demonstrated as the optimal aptame r.In order to facilitate the modification of aptamer,the Apta3 was further truncated with the dissociation constant(K_d) of 0.3 64 ± 0.055 μmol/L and a fluorescent aptasensor was developed.The linear range for carbaryl was from 100 nmol/L to1500 nmol/L,with the limit of detection was as low as 15.23 nmol/L.Besides,the biosensor was validated for the carbaryl spiked real samples,and the recoveries were between 97.7% and 107.3%. 相似文献
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Dong-Min Kim Myeong-June Go Jingyu Lee Dokyun Na Seung-Min Yoo 《Molecules (Basel, Switzerland)》2021,26(17)
Aptamers are artificial nucleic acid ligands that have been employed in various fundamental studies and applications, such as biological analyses, disease diagnostics, targeted therapeutics, and environmental pollutant detection. This review focuses on the recent advances in aptamer discovery strategies that have been used to detect various chemicals and biomolecules. Recent examples of the strategies discussed here are based on the classification of these micro/nanomaterial-mediated systematic evolution of ligands by exponential enrichment (SELEX) platforms into three categories: bead-mediated, carbon-based nanomaterial-mediated, and other nanoparticle-mediated strategies. In addition to describing the advantages and limitations of the aforementioned strategies, this review discusses potential strategies to develop high-performance aptamers. 相似文献
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M. Sc. Rossella Svigelj Dr. Nicolò Dossi Prof. Rosanna Toniolo Dr. Rebeca Miranda‐Castro Dr. Noemí de‐los‐Santos‐Álvarez Prof. M. Jesús Lobo‐Castañón 《Angewandte Chemie (International ed. in English)》2018,57(39):12850-12854
Herein, we show the feasibility of using deep eutectic solvents as a faster way of selecting aptamers targeting poorly water‐soluble species. This unexplored concept is illustrated for gluten proteins. In this way, aptamer‐based gluten detection can be performed directly in the extraction media with improved detectability. We envision deep implications for applications not only in food safety control but also in biomedicine. 相似文献
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Zhenguo Song Jun Mao Roberto A. Barrero Peng Wang Fengqiu Zhang Tao Wang 《Molecules (Basel, Switzerland)》2020,25(23)
CD63, a member of transmembrane-4-superfamily of tetraspanin proteins and a highly N-glycosylated type III lysosomal membrane protein, is known to regulate malignancy of various types of cancers such as melanoma and breast cancer and serves as a potential marker for cancer detection. Recently, its important role as a classic exosome marker was also emphasized. In this work, via using a magnetic bead-based competitive SELEX (systematic evolution of ligands by exponential enrichment) procedure and introducing a 0.5 M NaCl as elution buffer, we identified two DNA aptamers (CD63-1 and CD63-2) with high affinity and specificity to CD63 protein (Kd = 38.71 nM and 78.43, respectively). Furthermore, CD63-1 was found to be efficient in binding CD63 positive cells, including breast cancer MDA-MB-231 cells and CD63-overexpressed HEK293T cells, with a medium binding affinity (Kd ~ 100 nM) as assessed by flow cytometry. When immunostaining assay was performed using clinical breast cancer biopsy, the CD63-1 aptamer demonstrated a comparable diagnostic efficacy for CD63 positive breast cancer with commercial antibodies. After developing a magnetic bead-based exosome immunoaffinity separation system using CD63-1 aptamer, it was found that this bead-based system could effectively isolate exosomes from both MDA-MB-231 and HT29 cell culture medium. Importantly, the introduction of the NaCl elution in this work enabled the isolation of native exosomes via a simple 0.5M NaCl incubation step. Based on these results, we firmly believe that the developed aptamers could be useful towards efficient isolation of native state exosomes from clinical samples and various theranostic applications for CD63-positive cancers. 相似文献
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Po‐Jung Jimmy Huang Donatien de Rochambeau Hanadi F. Sleiman Juewen Liu 《Angewandte Chemie (International ed. in English)》2020,59(9):3573-3577
Highly selective recognition of metal ions by rational ligand design is challenging, and simple metal binding by biological ligands is often obscured by nonspecific interactions. In this work, binding‐triggered catalysis is used and metal selectivity is greatly increased by increasing the number of metal ions involved, as exemplified in a series of in vitro selected RNA‐cleaving DNAzymes. The cleavage junction is modified with a glycyl–histidine‐functionalized tertiary amine moiety to provide multiple potential metal coordination sites. DNAzymes that bind 1, 2, and 3 Zn2+ ions, increased their selectivity for Zn2+ over Co2+ ions from approximately 20‐, 1000‐, to 5000‐fold, respectively. This study offers important insights into metal recognition by combining rational ligand design and combinatorial selection, and it provides a set of new DNAzymes with excellent selectivity for Zn2+ ions. 相似文献